Integrated irrigation optimization power control system

US 6,108,590 A
Filed: 01/30/1998
Issued: 08/22/2000
Est. Priority Date: 09/26/1996
Status: Expired due to Fees

First Claim

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1. A system for optimizing operation of a plurality of independent soil irrigation systems comprising in combination:

a global positioning system (GPS) receiver receiving GPS satellite transmission position information for one or more of said irrigation systems to generate a map;

a geographical information systems (GIS) receiver receiving GIS satellite transmitted soil condition information for said irrigation systems on said map;

a programmable computer having a data storage device for storing data coupled to said GPS and GIS receivers for mapping said soil condition information onto said map;

a software program means in said computer for integrating said position information and said soil condition information to produce a priority schedule for operation of each of said irrigation systems in accordance with predetermined irrigation criteria; and

a transmission means coupled to said computer and to each of said irrigation systems for sending a control signal to each of said irrigation systems in accordance with said priority schedule.

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Abstract

A system for optimizing the operation of a plurality of irrigation systems includes at least one control computer, a storage device coupled to the control computer for storing data, a plurality of irrigation device controllers remotely coupled to each of the control computers, and a grid power monitor coupled to the computers for providing power grid demand and usage data. The system may also include GPS and GIS receivers to determine remotely position and soil condition and/or a plurality of sensors located in each of the irrigated fields which transmit soil information directly to the control computers. The control computers each in turn generate priorities of operation for the irrigation systems based on the soil condition information and most economical load operating periods from the electrical power utility. The system is optimized by generating position data for each of the irrigation systems, generating soil condition data at the position of the irrigation system, including current and/or historical weather data and crop information either manually inputted or determined from remote sensors or satellites, and calculating a required period and priority of each irrigation system operation based on the soil conditions at the location of each of the irrigation systems, the historical and/or predicted weather data, the crop data, and finally, automatically scheduling the irrigation system operations based on input from the electrical utility command computer as to the most economical time period for operation.

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17 Claims

1. A system for optimizing operation of a plurality of independent soil irrigation systems comprising in combination:
- a global positioning system (GPS) receiver receiving GPS satellite transmission position information for one or more of said irrigation systems to generate a map;
  
  a geographical information systems (GIS) receiver receiving GIS satellite transmitted soil condition information for said irrigation systems on said map;
  
  a programmable computer having a data storage device for storing data coupled to said GPS and GIS receivers for mapping said soil condition information onto said map;
  
  a software program means in said computer for integrating said position information and said soil condition information to produce a priority schedule for operation of each of said irrigation systems in accordance with predetermined irrigation criteria; and
  
  a transmission means coupled to said computer and to each of said irrigation systems for sending a control signal to each of said irrigation systems in accordance with said priority schedule.
- View Dependent Claims (2, 3, 4)
- - 2. The system according to claim 1 wherein said GIS receiver receives nitrogen, phosphorus and moisture content information for each of said irrigation systems.
  - 3. The system according to claim 1 wherein each of said irrigation systems is a circle pivot irrigation system.
  - 4. The system according to claim 3 further comprising said computer having report generating means for producing soil and irrigation usage reports for each of said plurality of pivot systems.

5. A system for optimizing operation of a plurality of independent soil irrigation systems comprising in combination:
- a means for determining soil irrigation system position and soil condition information for each position;
  
  a programmable control computer having a data storage device for storing said soil condition information onto an irrigation system map;
  
  a power grid monitor coupled to said computer for tracking electrical power demand and capacity available to said irrigation systems on said map;
  
  a software program means in said computer for integrating said position information, said power demand and available capacity and said soil condition information, together to produce a priority schedule for operation of each of said irrigation systems in accordance with predetermined irrigation criteria and available power criteria; and
  
  transmission means coupled to said computer and to each of said irrigation systems for sending a control signal to each of said irrigation systems in accordance with said priority schedule.
- View Dependent Claims (6, 7)
- - 6. The system according to claim 5 further comprising a plurality of central control computers connected to a command computer communicating with said power grid, said command computer determining availability priority levels for power from said power grid, and monitoring usage of power by said irrigation systems at said assigned priority levels.
  - 7. The system according to claim 6 further comprising said control computer having report generating means for producing soil and irrigation usage reports for each of said plurality of irrigation systems.

8. A system for optimizing operation of a plurality of independent soil irrigation systems comprising in combination:
- a programmable control computer having a data storage device for storing data for mapping soil condition and position information onto a map;
  
  a weather satellite receiver coupled to said computer receiving weather forecasting information for said irrigation systems;
  
  a power grid monitor coupled to said computer through a command computer for tracking electrical power demand and capacity available to said irrigation systems on said map;
  
  a software program means in said control computer for integrating said position information, said soil condition information, and said weather forecast information together to produce a priority schedule for operation of each of said irrigation systems in accordance with predetermined irrigation criteria and available power criteria; and
  
  transmission means coupled to said control computer and to each of said irrigation systems for sending a control signal to each of said irrigation systems in accordance with said priority schedule.
- View Dependent Claims (9)
- - 9. The system according to claim 8 wherein each of said irrigation systems is a circle pivot irrigation system.

10. A method optimizing operation of a remotely controlled irrigation system in an area of soil comprising the steps of:
- receiving a global positioning system (GPS) signal representative of a position of said irrigation system;
  
  receiving a geographic information system (GIS) satellite signal of soil condition information in said area;
  
  correlating said GIS signal with said GPS signal to generate a map of said soil condition information; and
  
  calculating in a control computer a required period of irrigation system operation based on said soil condition information at the location of said irrigation system.
- View Dependent Claims (11, 12, 13, 14, 15)
- - 11. The method according to claim 10 further comprising the step of prioritizing operation of said irrigation system based on said soil condition information.
  - 12. The method according to claim 10 further comprising the steps of receiving power demand and generating capacity information from a power generating facility supplying power to said irrigation system in said control computer and scheduling operation of said irrigation system in accordance with said priority, said generating capacity information and a predetermined power capacity criteria.
  - 13. The method according to claim 10 further comprising receiving a weather satellite signal of predicted weather conditions in said area;
    - receiving a weather condition signal from said irrigation system locationcorrelating said weather satellite signal with said irrigation system location to generate predicted weather conditions at said irrigation system; and
      
      modifying said required period of operation based on said predicted weather conditions at said irrigation system.
  - 14. The method according to claim 13 further comprising the step of prioritizing operation of said irrigation system based on said soil condition information.
  - 15. The method according to claim 13 further comprising the steps of receiving power demand and generating capacity information from a power generating facility supplying power to said irrigation system and scheduling operation of said irrigation system in accordance with said priority, said generating capacity information and a predetermined power capacity criteria.

16. A method of optimizing operation of a remotely controlled irrigation system in an area comprising the steps of:
- generating soil condition information at each position of said irrigation system;
  
  calculating in a control computer a required period of irrigation system operation based on said soil conditions at the location of said irrigation system;
  
  receiving power demand and generating capacity information from a power generating facility supplying power to said irrigation system in said control computer; and
  
  scheduling operation of said irrigation system in accordance with said priority, said generating capacity information and a predetermined power capacity criteria.

17. A method of optimizing operation of a remotely controlled irrigation system in an area comprising the steps of:
- generating soil condition information at each position of said irrigation system;
  
  calculating in a control computer a required period of irrigation system operation based on said soil conditions at the location of said irrigation system;
  
  receiving weather satellite signal of predicted weather conditions in said area;
  
  receiving a weather condition signal with said irrigation system location to generate predicted weather conditions at said irrigation system;
  
  modifying said required period of operation based on said predicted weather conditions at said irrigation system;
  
  receiving power demand and generating capacity information from a power generating facility supplying power to said irrigation system in said control computer; and
  
  scheduling operation of said irrigation system in accordance with said priority, said generating capacity information and a predetermined power capacity criteria.

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Litigation Campaign Assessment

Current Assignee
Hergert C. David
Original Assignee
Hergert C. David
Inventors
Hergert, C. David
Primary Examiner(s)
Gordon, Paul P.
Assistant Examiner(s)
PATEL, RAMESH B

Application Number

US09/016,844
Time in Patent Office

935 Days
Field of Search

700/16, 700/231, 700/14, 700/284, 137/624.11, 239/63, 239/69
US Class Current

700/284
CPC Class Codes

A01G 25/092   movable around a pivot centre

Y02A 40/22   Improving land use; Improvi...

Y10T 137/86389   Programmer or timer

Integrated irrigation optimization power control system

First Claim

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Abstract

111 Citations

17 Claims

Specification

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Integrated irrigation optimization power control system

First Claim

0 Assignments

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0 Petitions

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Accused Products

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Abstract

111 Citations

17 Claims

Specification

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Use Cases

Quick Links

Others